The invention concerns an electrical connection pad (10′) for providing an electrical connection between components of an electronic system, wherein the electrical connection pad comprises: a metallic layer (12); and a laser induced periodic surface structure (20), LIPSS, formed on an external surface (16) of the electrical connection pad (10) and exposing the metallic layer (12) and a method for correspondingly laser-treating an electrical connection pad (10).

The invention concerns an electrical connection pad (10′) for providing an electrical connection between components of an electronic system, wherein the electrical connection pad comprises: a metallic layer (12); and a laser induced periodic surface structure (20), LIPSS, formed on an external surface (16) of the electrical connection pad (10) and exposing the metallic layer (12) and a method for correspondingly laser-treating an electrical connection pad (10).

A display device includes a base layer including a first portion and a second portion disposed around the second portion; a display unit disposed on a first surface of the first portion and including a light emitting element; a driving circuit disposed on a first surface of the second portion and including a driving chip; a support member attached to a second surface of the first portion and a second surface of the second portion; and an adhesive member disposed between the base layer and the support member, wherein the adhesive member includes a first adhesive member having a first elastic modulus and a second adhesive member having a second elastic modulus that is higher than the first elastic modulus, and the second adhesive member overlaps the driving circuit.

A display device includes a base layer including a first portion and a second portion disposed around the second portion; a display unit disposed on a first surface of the first portion and including a light emitting element; a driving circuit disposed on a first surface of the second portion and including a driving chip; a support member attached to a second surface of the first portion and a second surface of the second portion; and an adhesive member disposed between the base layer and the support member, wherein the adhesive member includes a first adhesive member having a first elastic modulus and a second adhesive member having a second elastic modulus that is higher than the first elastic modulus, and the second adhesive member overlaps the driving circuit.

A semiconductor device and a semiconductor package including the same are provided. The semiconductor device includes a semiconductor element; a protective layer disposed adjacent to the surface of the semiconductor element, the protective layer defining an opening to expose the semiconductor element; a first bump disposed on the semiconductor element; and a second bump disposed onto the surface of the protective layer. The first bump has a larger cross-section surface area than the second bump.

A semiconductor device and a semiconductor package including the same are provided. The semiconductor device includes a semiconductor element; a protective layer disposed adjacent to the surface of the semiconductor element, the protective layer defining an opening to expose the semiconductor element; a first bump disposed on the semiconductor element; and a second bump disposed onto the surface of the protective layer. The first bump has a larger cross-section surface area than the second bump.

A semiconductor package is disclosed. The disclosed semiconductor package includes a substrate having bonding pads at an upper surface thereof, a lower semiconductor chip, at least one upper semiconductor chip disposed on the lower semiconductor chip, and a dam structure having a closed loop shape surrounding the lower semiconductor chip. The dam structure includes narrow and wide dams disposed between the lower semiconductor chip and the bonding pads. The wide dam has a greater inner width than the narrow dam. The semiconductor packages further includes an underfill disposed inside the dam structure and being filled between the substrate and the lower semiconductor chip.

A semiconductor package is disclosed. The disclosed semiconductor package includes a substrate having bonding pads at an upper surface thereof, a lower semiconductor chip, at least one upper semiconductor chip disposed on the lower semiconductor chip, and a dam structure having a closed loop shape surrounding the lower semiconductor chip. The dam structure includes narrow and wide dams disposed between the lower semiconductor chip and the bonding pads. The wide dam has a greater inner width than the narrow dam. The semiconductor packages further includes an underfill disposed inside the dam structure and being filled between the substrate and the lower semiconductor chip.

A method of manufacturing a semiconductor package includes forming a plurality of trenches at a first surface of a silicon substrate, forming a conductive pad inside each of the plurality of trenches, forming a redistribution layer on the first surface of the silicon substrate, forming an external connection terminal on a first surface of the redistribution layer, removing the silicon substrate to expose each conductive pad, mounting a semiconductor chip to be connected to the conductive pads, and forming an encapsulant to cover at least one surface of the semiconductor chip.

A method of manufacturing a semiconductor package includes forming a plurality of trenches at a first surface of a silicon substrate, forming a conductive pad inside each of the plurality of trenches, forming a redistribution layer on the first surface of the silicon substrate, forming an external connection terminal on a first surface of the redistribution layer, removing the silicon substrate to expose each conductive pad, mounting a semiconductor chip to be connected to the conductive pads, and forming an encapsulant to cover at least one surface of the semiconductor chip.